ACM, the world's largest educational and scientific computing society, delivers resources that advance computing as a science and a profession. ACM provides the computing field's premier Digital Library and serves its members and the computing profession with leading-edge publications, conferences, and career resources.

ACM offers the resources, access and tools to invent the future. No one has a larger global network of professional peers. No one has more exclusive content. No one presents more forward-looking events. Or confers more prestigious awards. Or provides a more comprehensive learning center.

For more than 60 years, the best and brightest minds in computing have come to ACM to meet, share ideas, publish their work and change the world. ACM's publications are among the most respected and highly cited in the field because of their longstanding focus on quality and their ability to attract pioneering thought leaders from both academia and industry.

ACM's Special Interest Groups (SIGs) represent major areas of computing, addressing the interests of technical communities that drive innovation. SIGs offer a wealth of conferences, publications and activities focused on specific computing sub-disciplines. They enable members to share expertise, discovery and best practices.

ACM’s Professional and Student chapters worldwide serve as hubs of activity for ACM members and the computing community at large. They provide seminars, lectures, learning forums and networking opportunities with peers and experts across the computing spectrum.

ACM recognizes excellence through its eminent awards for technical and professional achievements and contributions in computer science and information technology. It also names as Fellows and Distinguished Members those members who, in addition to professional accomplishments, have made significant contributions to ACM's mission.

ACM’s educational activities, conducted primarily through our Education Board and Council, range from the K-12 space (CSTA) and two-year programs to undergraduate, graduate, and doctoral-level education, and professional development for computing practitioners at every stage of their career...

ACM provides independent, nonpartisan, and technology-neutral research and resources to policy leaders, stakeholders, and the public about public policy issues, drawn from the deep technical expertise of the computing community.

ACM encourages its members to take a direct hand in shaping the future of the association. This philosophy permeates every level of ACM, reaching to the top echelons of leadership where members fill vital positions on the councils, boards and committees that govern the organization and raise the visibility of ACM worldwide.

People of ACM - Theo Schlossnagle

June 13, 2017

What is it that you enjoy most about being an entrepreneur? What is the biggest challenge to starting a new company?

The most satisfying part of being an entrepreneur is realizing the whole value chain. Building something that adds more value than it costs, which then in turn creates jobs and builds people and families. Assuming you intuit the things you do as a business to have a good product-market fit, all the problems become people problems. As you build a company, there are several inflection points that are hard to handle. Once you pass about 16 employees, communication structures change; then when you pass 50, HR changes; and when you pass 64, group dynamics radically change. In a tech company, the things you build often resemble the communication structures within your company. As those tend to change at these inflection points, this makes for some challenging transitions that affect how you build and deliver product. In the beginning, you look for doers who are capable and driven, but that changes at a certain point, and you must bring in leaders and managers who can stabilize the growth.

What is the main way in which Big Data has transformed the field of scalable software architecture?

Big Data has delivered some painful blows and a sincere helping hand; a bully with genuine remorse. From one side, it has created new scalability challenges that require even more always-on, low-latency, high-throughput demands. From the other side, it has enabled better behavioral analysis of the systems we use to power such scalability requirements. Big Data, in one fell swoop, both made all our problems harder and also gave us improved tools and capabilities to solve those problems better than we could before. Sadly, I think that many system architectures today are bearing the weight of new Big Data requirements, but failing to really leverage the promises of Big Data analysis to make their system architectures better. This is what we aim to help people with at Circonus.

Do you think we will arrive at a point where the industry encourages engineers to monitor everything in their environment? And if so, how would DevOps teams need to pivot both in practice and philosophy to be able to accommodate the amounts of data they would be ingesting and then build methodologies to prioritize and alert accordingly?

This is a pretty deep question. While I don't think we can get to the point of monitoring everything in an environment (due to information theory constraints), where we are today is light years ahead of where we were just five years ago. The second question brings up a critical monitoring faux pas, in that people often conflate collecting and analyzing data with alerting on aberrant conditions. Ingesting and storing data and alerting on data are at different ends of a continuum. You should be aiming to measure as many aspects of your systems as possible to enable retrospective interrogation, but the economics of Big Data challenge us. You should be aiming to alert on exactly what is required, but intuiting the minimum set of actionable alerts is exceptionally hard. These are the hard problems we aim to solve at Circonus, and I think we already have a good handle on the first part.

There are many media outlets and websites geared toward software engineers. What makes ACM Queue unique?

I think that ACM’s dual focus on academia and practice provides a valuable grounding for practitioners of computer science who find themselves constantly in the weeds. ACM Queue is a refreshing way to surface for air, or see the forest for the trees, or whatever your preferred metaphor is.

Theo Schlossnagle is a practicing software engineer and serial entrepreneur. He founded his first company, OmniTI, a Web applications and Internet architecture provider, in 1997. OmniTI employs more than 40 people and focuses on challenging scalability, performance, and security problems. The idea behind Circonus, his newest company, is to change the world of systems monitoring to be more data-driven. Circonus’s clients include service-based websites with millions of users. Schlossnagle’s book, Scalable Internet Architectures, covers major topics in Web architecture design and offers best practice design methodologies for building new websites.

A Senior Member of ACM, Schlossnagle serves on the editorial board of ACM Queue, a publication aimed at the worldwide community of software engineers. As a member of the ACM Practitioners Board, he works with his colleagues to ensure that ACM offers the best products and services that support the technical and professional development of practicing computing professionals, including engineers, architects, IT specialists, and managers.